Change of Primary Cosmic Radiation Nuclear Conposition in the Energy Range 1015 - 1017 eV as a Result of the Interaction with the Interstellar Cold Background of Light Particles

Abstract

In this paper the updated arguments in favor of a simple model, explaining from the united positions all peculiarities of the Extensive Air Shower (EAS) hadron Eh(E0) (and muon Emu(E0)) component energy fluxes dependence on the primary particle energy E0 in the primary energy region 1015 - 1017 eV are represented. These peculiarities have shapes of consequent distinct deeps of a widths dEh/Eh of the order of 0.2 and of relative amplitudes dL/L of the order of 0.1 - 1.0, and are difficult to be explained via known astrophysical mechanisms of particle generation and acceleration. In the basis of the model lies the destruction of the Primary Cosmic Radiation (PCR) nuclei on some monochromatic background of interstellar space, consisting of the light particles of the mass in the area of 36 eV (maybe the component of a dark matter). The destruction thresholds of PCR different nuclear components correspond to the peculiarities of Eh(E0). In this work the results of the recent treatment of large statistical material are analyzed. The experimental results are in good agreement with the Monte-Carlo calculations carried out in the frames of the proposed model.

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